Hans Ten Cate

Title: Innovations by Hans Ten Cate in Temperature Sensor Calibration

Introduction

Hans Ten Cate, an accomplished inventor located in Eindhoven, Netherlands, has made significant contributions to the field of sensor technology. With a total of two patents to his name, his work focuses on enhancing the accuracy and reliability of temperature calibration processes.

Latest Patents

Hans Ten Cate's latest patents include a groundbreaking arrangement and method for calibrating temperature sensors. The first patent describes a method that involves placing devices-under-test (DUTs) within a thermally isolated chamber. This setup allows for precise temperature control through thermalization of the DUTs and reference samples. By generating measurement signals based on temperature-dependent quantities, Hans's method ensures that each DUT receives accurate calibration.

The second patent further elaborates on his innovative calibration arrangement. This proprietary system features a sealable chamber incorporating a socket mount with reference samples in thermal contact with sample sockets dedicated to DUTs. The design includes a thermal chuck and a circuit board to maintain a consistent temperature set point, facilitating effective calibration of temperature sensors.

Career Highlights

Hans Ten Cate currently works at Sciosense B.V., where he continues to push the boundaries of research in temperature sensor technology. His commitment to innovation in this domain has positioned him as a forward thinker among peers.

Collaborations

Throughout his career, Hans has collaborated with notable coworkers such as Frans De Jong and Geert Calaerts. Their combined expertise enhances the research environment, driving forward the development of sophisticated calibration techniques.

Conclusion

Hans Ten Cate’s inventive work on temperature sensor calibration represents a significant advancement in the field. His patents not only exemplify his ingenuity as an inventor but also contribute immensely to the improvement of temperature measurement systems, fostering greater accuracy in various industrial applications.